基于SRAP标记的紫溪山华山松种子园无性系遗传多样性分析

刘 成<sup>1; 2; 3</sup>; 徐 剑<sup>1; 2; 3</sup>; 罗正平<sup>4</sup>; 董云祥<sup>4</sup>; 董章宏<sup>1; 2; 3</sup>; 瞿绍宏<sup>1; 2; 3</sup>; 李显煌<sup>1; 2; 3</sup>; 辛培尧<sup>1; 2; 3*</sup>

引用本文:	刘成, 徐剑, 罗正平, 董云祥, 董章宏, 瞿绍宏, 李显煌, 辛培尧.基于SRAP标记的紫溪山华山松种子园无性系遗传多样性分析[J].广西植物,2020,40(4):462-470.[点击复制]
	LIU Cheng, XU Jian, LUO Zhengping, DONG Yunxiang, DONG Zhanghong, QU Shaohong, LI Xianhuang, XIN Peiyao.SRAP marker analysis of genetic diversity in Pinus armandii clones from seed orchard in Zixi Mountain[J].Guihaia,2020,40(4):462-470.[点击复制]

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基于SRAP标记的紫溪山华山松种子园无性系遗传多样性分析
刘成^1,2,3, 徐剑^1,2,3, 罗正平⁴, 董云祥⁴, 董章宏^1,2,3, 瞿绍宏^1,2,3, 李显煌^1,2,3, 辛培尧^1,2,3*
1. 面向南亚东南亚经济林全产业链联合研发中心西南林业大学, 昆明 650224;2. 云南省高效经济林培育示范型国际科技合作基地西南林业大学, 昆明 650224;3. 云南省高校林木遗传改良与繁育重点实验室西南林业大学, 昆明 650224;4. 楚雄市紫溪山省级自然保护区管理局, 云南楚雄 675000

摘要:

为明确云南楚雄市紫溪山华山松种子园内不同种源无性系间的遗传背景,该研究收集了园内6个种源的60个华山松无性系单株针叶,采用改良CTAB法提取其总DNA,并利用SRAP分子标记对其进行遗传多样性分析。结果表明:(1)从100对引物组合中共筛选出15对具有多态性的SRAP引物,经SRAP-PCR扩增后,共获得出194个位点,多态位点百分率(PPB)为85.05%,Nei's 基因多样性指数(H)为0.233 7,Shannon's信息指数(I)为0.341 9,种源间的遗传分化系数(G_ST)为 0. 355 5。(2)华山松6个种源遗传多样性较高,且遗传变异主要存在于华山松种源内,种源地会泽(HZ)与巍山(WS)种源的遗传距离最近(D=0.050 1),会泽(HZ)与宜良(YL)种源的遗传距离最远(D=0.361 8)。(3)聚类分析显示将6个华山松种源一共聚为3类:会泽(HZ)和巍山(WS)种源聚为一类; 楚雄(CX)、南华(NH)和宜良(YL)种源聚为一类; 腾冲(TC)种源单独为一类。综合上述结果显示,紫溪山华山松种子园内无性系间的遗传分化处于较高水平,为华山松杂交育种时亲本的选配及种质资源的评价提供了分子水平的理论依据。

关键词: 华山松, 种子园, 无性系, SRAP, 遗传多样性

DOI：10.11931/guihaia.gxzw201905046

分类号:Q943

文章编号:1000-3142(2020)04-0462-09

基金项目:国家重点研发计划子课题(2017YFD060120204); 云南省重点研发计划项目(2018BB005); 云南省省级林业科技推广项目( [2018]ts04)[Supported by Subtopics of the National Key R & D Program(2017YFD060120204); Key R & D Program of Yunnan Province(2018BB005); Provincial Forestry Science and Technology Extension Program of Yunnan Province( [2018]ts04)]。

SRAP marker analysis of genetic diversity in Pinus armandii clones from seed orchard in Zixi Mountain

LIU Cheng^1,2,3, XU Jian^1,2,3, LUO Zhengping⁴, DONG Yunxiang⁴, DONG Zhanghong^1,2,3, QU Shaohong^1,2,3, LI Xianhuang^1,2,3, XIN Peiyao^1,2,3*

1. South and Southeast Asia Joint R &2.D Center of Economic Forest Full Industry Chain, Southwest Forestry University, Kunming 650224, China;3.2. International Technologial Cooperation Base of High Effective Economic Forestry Cultirating, Southwest Forestry University, Kunming 650224, China;4.3. Key Laboratory for Forest Genetic and Tree Improvement &5.Propagation in Universities of Yunnan Province, Southwest Forestry University, Kunming 650224, China;6.4. Administration Bureau of Zixi Mountain Nature Reserve, Chuxiong 675000, Yunnan, China 1. South and Southeast Asia Joint R & D Center of Economic Forest Full Industry Chain, Southwest Forestry University, Kunming 650224, China; 2. International Technologial Cooperation Base of High Effective Economic Forestry Cultirating, Southwest Forestry University, Kunming 650224, China; 3. Key Laboratory for Forest Genetic and Tree Improvement & Propagation in Universities of Yunnan Province, Southwest Forestry University, Kunming 650224, China; 4. Administration Bureau of Zixi Mountain Nature Reserve, Chuxiong 675000, Yunnan, China

Abstract:

In order to clear genetic background of different provenances Pinus armandii colnes from seed orchard in Zixi Mountain of Chuxiong City, Yunnan Province, the needles of 60 clones were taken from six provenances which was used to extract total DNA by modified CTAB method, and the genetic diversity was analyzed by SRAP molecular markers. The results were as follows:(1)Fifteen pairs of polymorphic SRAP primers were screened from 100 pairs of primer combinations. After SRAP-PCR amplification, a total of 194 loci were obtained, and the percentage of polymorphic loci PPB=85.05%, Nei's gene diversity index H=0.233 7, Shannon's information index I=0.341 9, genetic differentiation coefficient between population G_ST=0.355 5.(2)The genetic diversity of 6 provenances of P. armandii was high, and the genetic variation was mainly existed within provenances of P. armandii. The genetic distance between the Huize(HZ)provenance and the Weishan(WS)provenance was the closest(D=0.050 1), that the Huize(HZ)provenance and Yiliang(YL)provenance was the farthest(D =0.361 8).(3)The cluster analysis showed that six P. armandii provenances there were classified into three categories: Huize(HZ)and Weishan(WS)provenances were in one category; Chuxiong(CX), Nanhua(NH)and Yiliang(YL)provenances were in the second category; Tengchong(TC)provenance was a separate category. The results indicate that genetic differentiation in P. armandii clones from seed orchard in Zixi Mountain of Chuxiong City has a high level, and it can provide theoretical information and practical guidance for parent selections during the cross breeding and evaluation of germplasm resources of P. armandii as well.

Key words: Pinus armandii, seed orchard, clone, SRAP, genetic diversity